Intro: Vascular smooth muscle cell (VSMC) proliferation following endovascular interventions leads to restenosis, treated with drug-eluting stents. However, current drugs completely abolish vascular healing, cause thrombosis and clinical events. PCSK6 is a key protease in vascular remodeling and VSMCs activation upon vessel injury, via regulation of MMP2/14 activity. Here, we investigate whether local PCSK6 inhibition reduces VSMC proliferation and intimal hyperplasia. Methods: PCSK6 peptide inhibitor was tested in vitro on VSMCs migration, proliferation, apoptosis in comparison to rapamycin and paclitaxel. Internalization of a FITC labelled inhibitor was studied by flow cytometry and immunofluorescence. In vivo , PCSK6 inhibitor was administered at 3mg/kg IP using cationic microbubbles, followed by ultrasound-mediated local delivery in mice developing intimal hyperplasia after carotid ligation (n=8 vs 11). Carotid ligation in Tagln Cre+ /Pcsk6 fl/fl mice investigated the effect of PCSK6 specific ablation in VSMCs on intimal hyperplasia (n=7 vs 9). Carotids were collected from these and constitutive Pcsk6 -/- mice vs. controls for transcriptomic and histological analyses. Results: In vitro , PCSK6 inhibitor was internalized and inhibited both VSMC migration and proliferation (p<0.0001), reducing the expression of PCSK6, MMP2 and GDF15 . In comparison, paclitaxel showed severe VSMC toxicity, whereas rapamycin inhibited more strongly VSMC migration and proliferation than the PCSK6 inhibitor. In vivo, the inhibitor reduced intimal hyperplasia (p=0.026), again, by repressing PCSK6 and MMP2 expression in treated vs. control mice, with a favorable safety profile. Likewise, conditional VSMC Pcsk6 knockouts showed less intimal hyperplasia (p=0.053). In carotids from Pcsk6 -/- mice, cytoskeletal (Synm) and peptidase (Pgpep1l, Klk1) genes were strongly downregulated, showing its importance for vascular matrix composition. Conclusion: Our proof-of-concept translational study shows that local application of a PCSK6 inhibitor is a viable method for specifically modulating VSMC activation in intimal hyperplasia following vascular injury
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